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Lei He, Jian‐Feng Lv, Chang Ding, Yong Yu, Fan‐Yi Meng, Zhongbo Zhu, Xiaojun Li, Shan‐Shan Xu, Jun‐Bo Ding, Bo Zhao, Yong‐Kang Shi, Ying‐Ran He, Qun Wu.Understanding wide field-of-view metalenses. Shalaginov, Sensong An, Hualiang Zhang, Tian Gu, Juejun Hu,. Tutorial on metalenses for advanced flat optics: Design, fabrication, and critical considerations. Seong-Won Moon, Chihun Lee, Younghwan Yang, Joohoon Kim, Trevon Badloe, Chunghwan Jung, Gwanho Yoon, Junsuk Rho.Planar wide-angle-imaging camera enabled by metalens array. Ji Chen, Xin Ye, Shenglun Gao, Yuxin Chen, Yunwei Zhao, Chunyu Huang, Kai Qiu, Shining Zhu, Tao Li.Correction of Aberrations via Polarization in Single Layer Metalenses. Arruda, Donato Conteduca, Haowen Liang, Juntao Li, Ben‐Hur V. Augusto Martins, Kezheng Li, Guilherme S.Numerical analysis of an ultra-broadband and highly efficient beam splitter in the visible region. Zhihui Liu, Tiesheng Wu, Yiping Wang, Yan Liu, Rui Liu, Xu Zhong, Dan Yang, Zuning Yang.Toroidal‐Assisted Generalized Huygens’ Sources for Highly Transmissive Plasmonic Metasurfaces. Amir Hassanfiroozi, Yi‐Chen Cheng, Shih‐Hsiu Huang, Yu‐Tsung Lin, Po‐Sheng Huang, Yuzhi Shi, Pin Chieh Wu.Journal of Physics D: Applied Physics 2022, 55 Single-layer metalens for achromatic focusing with wide field of view in the visible range. Shilin Luo, Fei Zhang, Xinjian Lu, Ting Xie, Mingbo Pu, Yinghui Guo, Yanqin Wang, Xiangang Luo.Metamaterials: From fundamental physics to intelligent design. Ji Chen, Shanshan Hu, Shining Zhu, Tao Li.Doublet Metalens with Simultaneous Chromatic and Monochromatic Correction in the Mid-Infrared. Yi Zhou, Fengyuan Gan, Ruxue Wang, Dun Lan, Xiangshuo Shang, Wei Li.Optical and Thermal Design and Analysis of Phase-Change Metalenses for Active Numerical Aperture Control. George Braid, Carlota Ruiz de Galarreta, Andrew Comley, Jacopo Bertolotti, C.Broadband metasurface aberration orrectors for hybrid meta/refractive MWIR lenses. Spectrum dispersion element based on the metasurface with parabolic phase. Yufeng Chen, Ruizhe Zhao, Haoyang He, Xin Li, Hongqiang Zhou, Naqeeb Ullah, Guangzhou Geng, Junjie Li, Yongtian Wang, Lingling Huang.Metalenses with Polarization‐Insensitive Adaptive Nano‐Antennas. Jianchao Zhang, Haowen Liang, Yong Long, Yongle Zhou, Qian Sun, Qinfei Wu, Xiao Fu, Emiliano R.Shalaginov, Katherine Stoll, Sensong An, Clara Rivero‐Baleine, Myungkoo Kang, Anuradha Agarwal, Kathleen Richardson, Hualiang Zhang, Juejun Hu, Tian Gu. Broadband behavior of quadratic metalenses with a wide field of view. Yang Liu, Jianhao Zhang, Xavier Le Roux, Eric Cassan, Delphine Marris-Morini, Laurent Vivien, Carlos Alonso-Ramos, Daniele Melati.Dielectric metalens for miniaturized imaging systems: progress and challenges. Meiyan Pan, Yifei Fu, Mengjie Zheng, Hao Chen, Yujia Zang, Huigao Duan, Qiang Li, Min Qiu, Yueqiang Hu.Polarization-Dependent All-Dielectric Metasurface for Single-Shot Quantitative Phase Imaging.

Rui Chen, Yifan Shao, Yi Zhou, Yongdi Dang, Hongguang Dong, Sen Zhang, Yubo Wang, Jian Chen, Bing-Feng Ju, Yungui Ma.Mu Ku Chen, Xiaoyuan Liu, Yanni Sun, Din Ping Tsai.Broadband Wide Field-of-View Metalens by the Virtual-Diffraction-Aperture Method. Jiaran Qi, Yuzhong Wang, Cheng Pang, Hongjun Chu, Yayun Cheng.This article is cited by 37 publications. The design concept is generic and can be readily adapted to different meta-atom geometries and wavelength ranges to meet diverse application demands. We fabricated the metalens using Huygens meta-atoms operating at 5.2 μm wavelength and experimentally demonstrated aberration-free focusing and imaging over the entire FOV. The metalens further features a planar focal surface, which enables considerably simplified system architectures for applications in imaging and projection. The lens is monolithically integrated on a one-piece flat substrate and involves only a single layer of metasurface that corrects third-order Seidel aberrations including coma, astigmatism, and field curvature. Here we present a novel metalens design capable of performing diffraction-limited focusing and imaging over an unprecedented near 180° angular FOV. Conventionally, wide FOV operation is attained with complicated assembly of multiple optical elements known as “fisheye lenses”. Wide field-of-view (FOV) optical functionality is crucial for implementation of advanced imaging and image projection devices.